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dft_tools/doc/reference/c++/arrays/introduction.rst
Olivier Parcollet 0f524b26fc work on doc
2013-08-27 13:43:58 +02:00

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Rational
===========================
.. highlight:: c
This library provides a multi-dimensionnal array library
for numerical computations with the following characteristics/goals :
* **Simplicity of use** :
Arrays must be as simple to use as in python (numpy) or fortran.
This library is designed to be used by physicists, not by professionnal programmers,
We do *a lot* of array manipulations, and we want to maintain *readable* codes.
* **Genericity, abstraction and performance** :
We want to have simple, readeable code, with the same (or better) speed than manually written low level code.
Most optimisations should be delegated to the library and the compiler.
(Some) LAPACK and BLAS operations are interfaced.
* **Complete interoperability with python numpy arrays**.
This library is used a lot with mixed C++/python codes.
It handles quick conversion between the C++ and python world, e.g. :
* work on a view of a numpy,
* create a array in C++, and return it as a numpy.
* mix the various kind of arrays transparently in C++ expressions and in cython code.
* **HDF5** : simple interface to hdf5 library for an easy storing/retrieving into/from HDF5 files.
* **MPI** : compatibility with boost::mpi interface.